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    • 3. 发明公开
    • 실리콘 광벤치를 이용한 광송신 모듈
    • 使用硅光学透镜的光传输模块
    • KR1020040029720A
    • 2004-04-08
    • KR1020020060106
    • 2002-10-02
    • 한국전자통신연구원
    • 정경갑윤광수오행석
    • G02B6/42
    • PURPOSE: An optical transmission module using a silicon optical bench is provided to reduce a distance between a light source and a photo detector and to control light intensity incident on the light source and the photo detector easily, thereby reducing light loss and preventing an unstable operation of the light source. CONSTITUTION: A silicon optical bench(SiOB)(11) has a slant side wall(12) and has an open concave part(13) on its another side, and an optical fiber alignment part(15) is formed on the open side of the concave part, and a groove(16) is formed between the slant side wall and the optical fiber alignment part. An optical fiber(14) is mounted on the optical fiber alignment part, and a light source(17) is installed on an upper part of the slant side wall. And a photo detector(18) is installed on an upper part of the groove. A light emitted from the light source is reflected from the slant side wall and then is transferred to the optical fiber, and a part of the light is reflected from the side wall of the groove and is incident on the photo detector.
    • 目的:提供一种使用硅光学台的光传输模块,以减少光源和光电检测器之间的距离,并且容易地控制入射到光源和光电检测器上的光强度,从而减少光损耗并防止操作不稳定 的光源。 构成:硅光学台(SiOB)(11)具有倾斜的侧壁(12),并且在另一侧上具有开放的凹部(13),并且光纤对准部(15)形成在 凹部和凹槽(16)形成在倾斜侧壁和光纤对准部之间。 光纤(14)安装在光纤对准部上,光源(17)安装在倾斜侧壁的上部。 并且光电检测器(18)安装在凹槽的上部。 从光源发出的光从倾斜侧壁反射,然后被转印到光纤,并且一部分光从槽的侧壁反射并入射到光检测器上。
    • 4. 发明公开
    • 광섬유 어레이 블럭의 제조방법
    • 光纤阵列的制造方法
    • KR1020120055210A
    • 2012-05-31
    • KR1020100116815
    • 2010-11-23
    • 한국전자통신연구원
    • 유정희강현서임권섭윤광수고재상
    • G02B6/36G02B6/08B29C65/48
    • G02B6/3636B29C65/4845G02B6/08
    • PURPOSE: A method for manufacturing an optical fiber array block is provided to reduce the used amount of an epoxy resin used as an adhesive by reducing an interval between a cover plate and an optical fiber array. CONSTITUTION: A silicon substrate(110) includes an optical fiber mounting area. A silicon-quartz directly bonding substrate(130) includes a quartz wafer(120) bonded under the silicon substrate. One or more optical fibers(140) are mounted on an optical fiber mounting area. A cover plate(160) is provided to optical fibers. A bonding layer(150) is filled between the silicon-quartz direct bonding substrate and the cover plate. The optical fiber mounting area is provided to sidewalls(110a) and lower portions between perpendicular sidewalls.
    • 目的:提供一种制造光纤阵列块的方法,通过减小盖板和光纤阵列之间的间隔来减少用作粘合剂的环氧树脂的使用量。 构成:硅衬底(110)包括光纤安装区域。 硅 - 石英直接接合衬底(130)包括结合在硅衬底下方的石英晶片(120)。 一个或多个光纤(140)安装在光纤安装区域上。 向光纤提供盖板(160)。 在硅 - 石英直接接合衬底和盖板之间填充结合层(150)。 光纤安装区域设置在侧壁(110a)和垂直侧壁之间的下部。
    • 5. 发明公开
    • 다기능 광 계측기
    • 多功能光学测量装置
    • KR1020120054932A
    • 2012-05-31
    • KR1020100116334
    • 2010-11-22
    • 한국전자통신연구원
    • 임권섭강현서윤광수유정희고재상
    • G01J1/04G01J3/02G02B27/10
    • G01J1/0411G01J1/0425G01J1/0437G01J1/0488G01M11/3127G02B6/385G02B6/3866
    • PURPOSE: A multi-function light measuring instrument is provided to measure and observe at the same time because functions measuring an optical wavelength and an optical power with ferrule scoping function are connected with one connection and to measure light sources having plurality of wavelengths at the same time. CONSTITUTION: A multi-function light measuring instrument(300) comprises a route selection unit(310), a wavelength and power measuring unit(320), and a ferrule/fiber scoping unit(350). The route selection unit separates optical signals for scoping and transmission from the ferrule/fiber(200). The wavelength and power measuring unit separates a wavelength and power of the optical signals for the transmission from the route selection unit. The wavelength and power measuring unit measure the wavelength and power of the optical signals for the transmission from the route selection unit. The ferrule/fiber scoping unit converts the optical signals for the scoping into electric signals. The ferrule/fiber scoping unit generates the optical signals for the scoping and transfers the generated optical signals for the scoping to the route selection unit transferring the optical signals to the ferrule/fiber.
    • 目的:提供多功能光测量仪器,用于同时测量和观察,因为测量光学波长的功能和具有套圈示波功能的光功率与一个连接相连,并测量具有多个波长的光源 时间。 构成:多功能光测量仪器(300)包括路径选择单元(310),波长和功率测量单元(320)以及套圈/光纤示范单元(350)。 路线选择单元从套圈/纤维(200)分离用于范围和传输的光信号。 波长和功率测量单元从路由选择单元分离用于传输的光信号的波长和功率。 波长和功率测量单元测量来自路由选择单元的传输的光信号的波长和功率。 套圈/光纤范围单元将用于示波器的光信号转换为电信号。 套圈/光纤范围单元产生用于示波器的光信号,并将生成的用于示波器的光信号传送到将光信号传送到套圈/光纤的路由选择单元。
    • 6. 发明公开
    • 대구경 광분배기 및 그의 제조방법
    • 大型分销商单位
    • KR1020120054211A
    • 2012-05-30
    • KR1020100115480
    • 2010-11-19
    • 한국전자통신연구원
    • 강현서유정희이세형임권섭윤광수이종진고재상
    • G02B6/125
    • G02B6/125B29D11/00663G02B1/045G02B6/138G02B2006/1215
    • PURPOSE: A large diameter optical splitter and a manufacturing method thereof are provided to enhance distribution efficiency by radiating a first output unit and a second output unit branched in an input unit as a v-shape of interval angle under 25degrees. CONSTITUTION: A large diameter optical splitter comprises an input unit(12) and a core(10). A cladding surrounds the core. Top and bottom housings surround the cladding. The core comprises a first output unit and a second output unit having a v-shape in the input unit. The first output unit and the second output unit are branched to interval angle of 0 to 25 degrees. The input unit, the first output unit, and the second output unit are radiated from one mold. The first output unit and the second output unit separate an optical signal provided from the input unit as a distribution ratio of about 0.49.
    • 目的:提供一种大直径光分路器及其制造方法,以通过将以输入单元分支的第一输出单元和第二输出单元辐射为间隔角为25度的v形来提高分配效率。 构成:大直径光分路器包括输入单元(12)和芯(10)。 包层围绕核心。 顶部和底部外壳围绕包层。 核心包括在输入单元中具有v形的第一输出单元和第二输出单元。 第一输出单元和第二输出单元分支为0至25度的间隔角。 输入单元,第一输出单元和第二输出单元从一个模具辐射。 第一输出单元和第二输出单元将从输入单元提供的光信号分离为约0.49的分布比。
    • 7. 发明公开
    • 이동식 패널을 구비한 환경시험용 챔버 및 이의 구동방법
    • 具有移动型面板的环境测试室及其驱动方法
    • KR1020100071831A
    • 2010-06-29
    • KR1020080130680
    • 2008-12-19
    • 한국전자통신연구원
    • 윤광수유정희고재상
    • F24F5/00G01M99/00
    • G01N17/002G01M99/002
    • PURPOSE: An environment test chamber with a moving panel and a driving method thereof are provided to enhance the performance of a chamber by contracting the inner volume of a test space if testing a part requiring a relatively severe test environment. CONSTITUTION: By keeping and controlling the temperature or the humidity of an internal space, an environment test chamber(90) produces a test environment suitable for a test object. The environment test chamber comprises a chamber body(10), an air-conditioning unit(20), a moving panel(30), and a panel driving unit(40). A test space in which the test object is arranged is formed inside the chamber body. The air-conditioning unit controls the air conditioning state of the test space. The moving panel is held in the chamber body to contract or expand the volume of the test space. The moving panel moves along the inner wall of the chamber body. The panel driving unit is coupled to one side of the moving panel to drive the moving panel.
    • 目的:提供具有移动面板的环境测试室及其驱动方法,以便如果测试需要相对严格的测试环境的部件,则通过收缩测试空间的内部容积来增强室的性能。 构成:通过保持和控制内部空间的温度或湿度,环境试验箱(90)产生适于测试对象的测试环境。 环境试验箱包括室主体(10),空调单元(20),移动面板(30)和面板驱动单元(40)。 在室主体内部形成有测试对象排列的测试空间。 空调机控制测试空间的空调状态。 移动面板保持在腔体内以收缩或扩大测试空间的体积。 移动面板沿室体的内壁移动。 面板驱动单元联接到移动面板的一侧以驱动移动面板。
    • 8. 发明公开
    • 광섬유 융착 접속기
    • 光纤熔丝机
    • KR1020130063770A
    • 2013-06-17
    • KR1020110130314
    • 2011-12-07
    • 한국전자통신연구원
    • 윤광수
    • G02B6/255
    • G02B6/2553G01N21/8803G02B6/2551G02B6/2555
    • PURPOSE: An optical fiber splicer is provided to shorten realignment and re-fusion splicing time of an optical fiber, by installing an alignment block with a magnifying glass function, a lighting device and a power supply device to perform alignment of the optical fiber with naked eye easily. CONSTITUTION: An optical fiber fusion splicer includes a handle, a connection part, a heating part, a manipulation part, an alcohol vessel part, an explosion-proof cover, a monitor, and a main body. The heating part fuses connected optical fibers, and the manipulation part controls the heating part. The connection part is located on the upper part of the main body, and connects two cut optical fibers. The connection part includes a holder(40), an alignment block(20) and a V-groove block(21). The holder fixes one optical fiber. The alignment block includes the V-groove block, and checks the alignment of the optical fiber with the naked eye by comprising a magnifying glass, a light device(20-1), and a power supply device(20-2) on the upper part of the V-groove block.
    • 目的:提供一种光纤拼接器,通过安装具有放大镜功能的对准块,照明装置和电源装置来缩短光纤的重新对准和再熔接时间,以使光纤与裸机对准 眼睛很容易。 构成:光纤熔接机包括手柄,连接部,加热部,操作部,酒精容器部,防爆罩,监视器和主体。 加热部件熔接连接的光纤,操作部控制加热部。 连接部分位于主体的上部,并连接两根切割的光纤。 连接部分包括保持器(40),对准块(20)和V形槽块(21)。 支架固定一根光纤。 对准块包括V形槽块,并且通过在上部包括放大镜,光装置(20-1)和电源装置(20-2)来检查光纤与肉眼的对准。 部分V型槽块。
    • 10. 发明公开
    • 웨이퍼 접합방법
    • WAFER BONDING的方法
    • KR1020120054252A
    • 2012-05-30
    • KR1020100115537
    • 2010-11-19
    • 한국전자통신연구원
    • 유정희강현서윤광수임권섭고재상
    • H01L21/20
    • H01L21/185H01L21/324
    • PURPOSE: A wafer bonding method is provided to improve quality of product by pressurizing two semiconductor substrates and forming a bonded substrate and transferring heat from the center of the bonded substrate to edge. CONSTITUTION: A first substrate(10) including a first side and a second side(10b) facing to the first side is provided. An insulating film is formed on the first side and the second side. The insulating film is an oxide film or a nitride film. A second substrate(20) including a third side and a fourth(20b) facing to the third side is provided. Bonding surface of two wafers are activated by using plasma. An initial bonding process is executed by perpendicularly pressurizing the bonding surface of the two wafers. The two wafers are bonded by selectively heating the center of the initially bonded wafers.
    • 目的:提供晶片接合方法,通过对两个半导体衬底加压并形成接合衬底并将热量从接合衬底的中心传递到边缘来提高产品质量。 构成:提供包括面向第一侧的第一侧和第二侧(10b)的第一基板(10)。 绝缘膜形成在第一面和第二面上。 绝缘膜是氧化物膜或氮化物膜。 提供了包括面向第三侧的第三侧面和第四(20b)的第二基板(20)。 通过使用等离子体激活两个晶片的结合表面。 通过对两个晶片的粘合表面垂直加压来执行初始粘合工艺。 通过选择性地加热初始结合的晶片的中心来结合两个晶片。